Patents Assigned to Raven Industries
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Patent number: 11954878Abstract: A device to determine a height disparity between features of an image includes a memory including instructions and processing circuitry. The processing circuitry is configured by the instructions to obtain an image including a first repetitive feature and a second repetitive feature. The processing circuitry is further configured by the instructions to determine a distribution of pixels in a first area of the image, where the first area includes an occurrence of the repetitive features, and to determine a distribution of pixels in a second area of the image, where the second area includes another occurrence of the repetitive features. The processing circuitry is further configured by the instructions to evaluate the distribution of pixels in the first area and the distribution of pixels in the second area to determine a height difference between the first repetitive feature and the second repetitive feature.Type: GrantFiled: March 15, 2023Date of Patent: April 9, 2024Assignee: Raven Industries, Inc.Inventors: Yuri Sneyders, John D. Preheim
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Patent number: 11944030Abstract: Metering devices for an agricultural implement apply a field input, for example, pneumatically delivered granular product including seed or fertilizer or sprayed liquid product including fertilizer and the like, to an agricultural field. In the applying of the field input, the rate of application of the dispensers of one section of the implement can be collectively varied in relation to the rate of application of the dispensers of a different section of the implement frame.Type: GrantFiled: January 28, 2021Date of Patent: April 2, 2024Assignee: Raven Industries, Inc.Inventors: Stanislaus Montgomery Shivak, Jared Ernest Kocer
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Patent number: 11937548Abstract: A system and method for sensing an edge of a region includes at least one distance sensor configured to detect a plurality of distances of objects along a plurality of adjacent scan lines. A controller is in communication with the at least one distance sensor and is configured to determine a location of an edge of a region within the plurality of adjacent scan lines. The controller includes a comparator module configured to compare values corresponding to the detected plurality of distances, and an identification module configured to identify the location of the edge of the region according to the compared values. In one example, the values corresponding to the detected plurality of distances include couplets of standard deviations that are analyzed and selected to identify the location of the edge.Type: GrantFiled: August 24, 2021Date of Patent: March 26, 2024Assignee: Raven Industries, Inc.Inventors: James Edward Slichter, Andrew Joseph Pierson, Derek Michael Stotz, Jonathan William Richardson
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Publication number: 20230419220Abstract: A computer-implemented method may include receiving, over an API, a command identifying a change in an agricultural task; converting, using a processing unit, the command into an event; based on an event type of the event, retrieving a subset of workflows from a workflow datastore; electronically evaluating conditional expressions in the subset of workflows using data of the event; and based on the evaluating, determining a conditional expression of a workflow of the subset of workflows evaluates to true; and in response to the determining, electronically issuing a command using the API in accordance with an action of the workflow of the subset of workflows.Type: ApplicationFiled: June 28, 2023Publication date: December 28, 2023Applicant: Raven Industries, Inc.Inventor: Kyle John Sonaty
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Patent number: 11744239Abstract: A configurable nozzle includes a nozzle body having a reception chamber configured to receive an application mixture. The nozzle body includes a nozzle orifice. At least one orifice assembly is coupled with the nozzle body, the at least one orifice assembly includes an orifice plate movably coupled with the nozzle body. The orifice plate extends along at least a portion of the nozzle orifice, and movement of the orifice plate changes one or more of the size or shape of the nozzle orifice. An orifice actuator is coupled with the orifice plate, and the orifice actuator is configured to move the orifice plate.Type: GrantFiled: January 5, 2018Date of Patent: September 5, 2023Assignee: Raven Industries, Inc.Inventors: Jared Ernest Kocer, Nicholas O. Michael
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Patent number: 11734917Abstract: A framework for safely operating autonomous machinery, such as vehicles and other heavy equipment, in an in-field or off-road environment, includes detecting, identifying, classifying and tracking objects and/or terrain characteristics from on-board sensors that capture images in front and around the autonomous machinery as it performs agricultural or other activities. The framework generates commands for navigational control of the autonomous machinery in response to perceived objects and terrain impacting safe operation. The framework processes image data and range data in multiple fields of view around the autonomous equipment to discern objects and terrain, and applies artificial intelligence techniques in one or more neural networks to accurately interpret this data for enabling such safe operation.Type: GrantFiled: January 10, 2020Date of Patent: August 22, 2023Assignee: Raven Industries, Inc.Inventors: Colin Josh Hurd, Rahul Ramakrishnan, Mark William Barglof, Quincy Calvin Milloy, Thomas Antony
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Patent number: 11704810Abstract: System and techniques for detecting a crop related row from an image are described herein. An image that includes several rows—where the several rows including crop rows and furrows—can be obtained. The image can be segmented to produce a set of image segments. A filter can be shifted across respective segments of the set of image segments to get a set of positions. A line can be fit members of the set of positions, the line representing a crop row or furrow.Type: GrantFiled: July 20, 2021Date of Patent: July 18, 2023Assignee: Raven Industries, Inc.Inventors: Yuri Sneyders, John D. Preheim, Jeffrey Allen Van Roekel
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Patent number: 11687083Abstract: An agricultural vehicle monitoring system includes first and second noncontact sensors configured for coupling with an agricultural vehicle, where the first and second noncontact sensors are configured to sense respective first and second environmental characteristics for determining a position of the agricultural vehicle in a field. The system further includes a comparative vehicle monitor in communication with the first and second noncontact sensors. The comparative vehicle monitor includes a filter module to filter outputs of the first and second noncontact sensors based on an indicator of a relative quality of the output of each sensor. The comparative vehicle monitor additionally includes an evaluation module to determine a vehicle position of the agricultural vehicle relative to at least one of the first and second environmental characteristics according to filtered outputs of the first and second noncontact sensors.Type: GrantFiled: December 22, 2020Date of Patent: June 27, 2023Assignee: Raven Industries, Inc.Inventors: Jeffrey Allen Van Roekel, Alex John Weidenbach, John D. Preheim, Drew John Waltner, Joel Quentin Quanbeck
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Patent number: 11659783Abstract: System and techniques for calibrating a crop row computer vision system are described herein. An image set that includes crop rows and furrows is obtained. Models of the field are searched to find a model that best fits the field. A calibration parameter is extracted from the model and communicated to a receiver.Type: GrantFiled: October 19, 2021Date of Patent: May 30, 2023Assignee: Raven Industries, Inc.Inventors: Yuri Sneyders, John D. Preheim, Jeffrey Allen Van Roekel
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Patent number: 11647685Abstract: An automated implement control system includes one or more distance sensors configured for coupling with an agricultural implement. The one or more distance sensors are configured to measure a ground distance and a canopy distance from the one or more sensors to the ground and crop canopy, respectively. An implement control module is in communication with the one or more distance sensors. The implement control module controls movement of the agricultural implement. The implement control module includes a confidence module configured to determine a ground confidence value based on the measured ground distance and a canopy confidence value based on the measured canopy distance. A target selection module of the implement control module is configured to select one of the measured ground or canopy distances as a control basis for controlling movement of the agricultural implement based on the comparison of confidence values.Type: GrantFiled: October 13, 2022Date of Patent: May 16, 2023Assignee: Raven Industries, Inc.Inventors: Alex Weidenbach, John D. Preheim
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Patent number: 11615543Abstract: A device to determine a height disparity between features of an image includes a memory including instructions and processing circuitry. The processing circuitry is configured by the instructions to obtain an image including a first repetitive feature and a second repetitive feature. The processing circuitry is further configured by the instructions to determine a distribution of pixels in a first area of the image, where the first area includes an occurrence of the repetitive features, and to determine a distribution of pixels in a second area of the image, where the second area includes another occurrence of the repetitive features. The processing circuitry is further configured by the instructions to evaluate the distribution of pixels in the first area and the distribution of pixels in the second area to determine a height difference between the first repetitive feature and the second repetitive feature.Type: GrantFiled: July 10, 2020Date of Patent: March 28, 2023Assignee: Raven Industries, Inc.Inventors: Yuri Sneyders, John D. Preheim
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Patent number: 11612160Abstract: A sprayer control system includes a plurality of smart nozzles each having at least one control valve with a valve operator, an electronic control unit for the valve operator, and one or more spray nozzles. The at least one control valve and the ECU control a flow rate of liquid agricultural product through the nozzles. A duty cycle modulator is in communication with the ECU and generates an applied duty cycle for the at least one control valve. The duty cycle modulator includes a specified duty cycle input having a specified duty cycle and a pressure monitor associated with the at least one control valve. A pressure comparator compares the valve pressure determined with the pressure monitor with a system pressure and generates a pressure error. An applied duty cycle generator generates the applied duty cycle based on the specified duty cycle modified by the pressure error.Type: GrantFiled: April 7, 2021Date of Patent: March 28, 2023Assignee: Raven Industries, Inc.Inventors: Justin Krosschell, Drew John Waltner, Travis Burgers, Jacob Deines, Seth Steensma
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Patent number: 11609569Abstract: An integrated technology platform enables any application of autonomous agricultural equipment operation in an agricultural or other off-road setting, within a common software structural architecture. The platform represents a technology stack that is a modular architecture for multiple use cases and vehicle types. The platform includes a vehicle interface component responsible for the physical interface to agricultural equipment, a telematics component that enables stable in-field communications between all aspects of the integrated technology platform, and a perception component that operates as a safety mechanism and includes object detection and classification. Additionally, a cloud-side application performs account management, field setup and syncing of field equipment and operating systems in a common operating system.Type: GrantFiled: November 15, 2019Date of Patent: March 21, 2023Assignee: Raven Industries, Inc.Inventors: Colin Josh Hurd, Mark William Barglof, Quincy Calvin Milloy
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Patent number: 11602142Abstract: A semi-active suspension system includes a suspension element having a damping coefficient range. The suspension element optionally includes an implement end and a chassis end. The semi-active suspension system includes a suspension control circuit in communication with the suspension element. The suspension control circuit optionally includes a kinematic assessment circuit in communication with one or more sensors. The kinematic assessment circuit is configured to measure or determine kinematic characteristics of one or more of the agricultural implement and the chassis. The suspension control circuit optionally includes a damping control circuit, and the damping control circuit generates a specified damping characteristic based on the measured or determined kinematic characteristics. The damping control circuit optionally directs the suspension element to operate within the damping coefficient range based on the specified damping characteristic.Type: GrantFiled: July 12, 2019Date of Patent: March 14, 2023Assignee: Raven Industries, Inc.Inventors: Alex Weidenbach, Jesse Lee Wagers, John D. Preheim
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Patent number: 11606478Abstract: System and techniques for adaptive color transformation to aid computer vision are described herein. Colors from an image are mapped into a multi-dimensional space to create a distribution of colors in the image. A line can be fit to the distribution. Here, the line includes an angle relative to a coordinate system of the multi-dimensional space. A transformation to colors can then be applied to the image based on the angle of the line. The transformation producing a reduced image where a color complexity of the original image is reduced.Type: GrantFiled: October 27, 2021Date of Patent: March 14, 2023Assignee: Raven Industries, Inc.Inventors: Yuri Sneyders, John D. Preheim, Jeffrey Allen Van Roekel
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Patent number: 11531334Abstract: A system and method of controlling agriculture equipment which combines geographical coordinates, machine settings, machine position, path plans, user input, and equipment parameters to generate executable commands based of a variety of different in-field agricultural operation objectives for a vehicle equipped with an automatic or electronically controlled locomotion systems capable of reading and executing the commands.Type: GrantFiled: July 16, 2020Date of Patent: December 20, 2022Assignee: Raven Industries, Inc.Inventor: Colin Josh Hurd
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Patent number: 11470760Abstract: An agricultural vehicle monitoring system includes one or more noncontact sensors configured to sense multiple objects along a scanline. A comparative vehicle monitor is in communication with the one or more noncontact sensors. The comparative vehicle monitor is configured to provide a specified row width and to identify one or more crop rows from the scan line and determine one or more lengths of scan line segments between identified crop rows. The comparative vehicle monitor is further configured to determine a vehicle position including one or more of a vehicle angle or a vehicle location according to the specified row width and the one or more determined lengths of scan line segments between the identified crop rows.Type: GrantFiled: August 13, 2019Date of Patent: October 18, 2022Assignee: Raven Industries, Inc.Inventors: Jeffrey Allen Van Roekel, Alex John Weidenbach, John D. Preheim, Drew John Waltner, Joel Quentin Quanbeck
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Patent number: 11470756Abstract: An automated implement control system includes one or more distance sensors configured for coupling with an agricultural implement. The one or more distance sensors are configured to measure a ground distance and a canopy distance from the one or more sensors to the ground and crop canopy, respectively. An implement control module is in communication with the one or more distance sensors. The implement control module controls movement of the agricultural implement. The implement control module includes a confidence module configured to determine a ground confidence value based on the measured ground distance and a canopy confidence value based on the measured canopy distance. A target selection module of the implement control module is configured to select one of the measured ground or canopy distances as a control basis for controlling movement of the agricultural implement based on the comparison of confidence values.Type: GrantFiled: October 29, 2020Date of Patent: October 18, 2022Assignee: Raven Industries, Inc.Inventors: Alex Weidenbach, John D. Preheim
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Patent number: 11358572Abstract: A brake control system and method for autonomous vehicle control that includes a first brake pedal connected to a first brake arm, the first brake arm is connected to a first brake shaft, the first brake shaft extends a length between an upper end and lower end and includes a first actuator that expands and contracts in length. The lower end of the first brake shaft is operably connected to a first brake mechanism. An autonomous control system having a controller with microprocessor, memory and instructions is connected and controls operation of the first actuator. When the first brake shaft expands in length the first brake mechanism is engaged by the lower end of the first brake shaft thereby applying the brakes. The first brake mechanism is operable by depressing the first brake pedal in manual operation mode as well as by controlling the first actuator in autonomous operation mode.Type: GrantFiled: June 26, 2019Date of Patent: June 14, 2022Assignee: Raven Industries, Inc.Inventors: Colin Josh Hurd, Quincy Milloy
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Patent number: 11242126Abstract: A towed atmospheric balloon system includes an atmospheric balloon including a quantity of lift gas and a neutral buoyancy towing system coupled with the atmospheric balloon. The neutral buoyancy towing system includes one or more towing thrusters configured to move the towed atmospheric balloon system in a neutrally buoyant condition between altitudes, and a power source operatively coupled with the towing thruster. Wherein a composite mass of the towed atmospheric balloon system includes component masses of the atmospheric balloon and the neutral buoyancy towing system, and the composite mass is static and neutral buoyancy is maintained with movement between altitudes. At differing altitudes the composite mass of the towed atmospheric balloon system is static and the system remains neutrally buoyant.Type: GrantFiled: September 4, 2019Date of Patent: February 8, 2022Assignee: Raven Industries, Inc.Inventor: Michael Scott Smith